2024
· R.H. Qiao, B. Zhang*, S.Q. Wang, X.M. Luo, G.P. Zhang, Phosphate-Modified NiCo2O4@NiCoS heterointerface boosting electrochemical performance for supercapacitors, ACS Appl. Energy Mater., 7 (2024) 8014-8024.(https://pubs.acs.org/doi/10.1021/acsaem.4c01735)
· T. Ma, B. Zhang*, L.M. Lei*, Y.C. Wang, Z.M. Song, G.P. Zhang*, Tailoring thickness debit for high-temperature fatigue resistance of Inconel 718 superalloy fabricated by laser powder bed fusion, Int. J. Plasticity, 182 (2024) 104137.(https://doi.org/10.1016/j.ijplas.2024.104137)
· G.D. Liu, X.M. Luo, H.L. Chen, J.P. Zou, B. Zhang, G.P. Zhang*, Effect of short-range order on hydrogen-induced cracking of VCoNi medium entropy alloy, Mater. Charact., 217 (2024) 114329.(https://doi.org/10.1016/j.matchar.2024.114329)
· X.P. Wu, X.M. Luo*, H.L. Chen, Y. Man, Y.Y. Bai, T.Z. Qin, B. Zhang, G.P. Zhang*, Fatigue crack-based strain sensors achieving flow detection and motion monitoring for reconnaissance robot applications, Mater. Horiz. 2024.(https://doi.org/10.1039/D4MH00419A)
· M.Y. Li, Z.X. Wang, B. Zhang*, M. Wen, X.M. Luo, H.L. Chen, G.P. Zhang*. Achieving high fatigue endurance of nanocrystalline Ni/Ni-W layered composites through thermally and mechanically-induced relaxations. Acta Mater. 276(2024) 120091.(https://doi.org/10.1016/j.actamat.2024.120091)
· F. Liang, Z.X. Wang, M.Y. Li, B, Zhang*, X.M. Luo, X.F. Zhu, G.P. Zhang*, Exceptional ductility through interface-constrained grain growth for the ultrafine-scale Ni/Ni-W layered composites, Int. J. Plasticity 176 (2024) 103959.(https://doi.org/10.1016/j.ijplas.2024.103959)
· H.L. Chen, X.M. Luo*, M.Y. Zhang, M, Wen, X.F. Zhu, G.P. Zhang*, More severe surface relief but stronger fatigue resistance at small scales: Vacancy-assisted fatigue damage mechanism, Acta Mater. 274 (2024) 120028.(https://doi.org/10.1016/j.actamat.2024.120028)
· J. P. Zou, X. M. Luo*, B. Zhang, H. L. Chen, Y. W. Luo, W. K. Yang, G. D. Liu, X. F. Zhu, G. P. Zhang*, Achieving ultrahigh fatigue resistance of Al15(CoCrNi)85 medium entropy alloy with deformable multicomponent BCC phases, Mater. Sci. Eng., A 891 (2024) 145985.(https://doi.org/10.1016/j.msea.2023.145985)
· Y.W. Luo, B. Zhang*, Z.M. Song, X.M. Luo, G.P. Zhang*, The high throughput bridge to the rapid evaluation of fatigue reliability of structural engineering materials, Int. J. Fatigue 178 (2024) 107966. (https://doi.org/10.1016/j.ijfatigue.2023.107966).
· J. P. Zou, X. M. Luo, B. Zhang, H. L. Chen, Y. W. Luo, W. K. Yang, G. D. Liu, X. F. Zhu, G. P. Zhang, Achieving ultrahigh fatigue resistance of Al15(CoCrNi)85 medium entropy alloy with deformable multicomponent BCC phases, Mater. Sci. Eng., A 891 (2024) 145985.
· Y.W. Luo, B. Zhang, Z.M. Song, X.M. Luo, G.P. Zhang, The high throughput bridge to the rapid evaluation of fatigue reliability of structural engineering materials, Int. J. Fatigue 178(IF= 6.0) (2024) 107966.
2023
· X.P. Wu, X.M. Luo, Z.M. Song, Y.Y. Bai, B. Zhang, G.P. Zhang, Ultra Robust and Sensitive Flexible Strain Sensor for Real Time and Wearable Sign Language Translation, Adv. Funct. Mater. (2023) 2303504.
· M. Y. Li, Z.X. Wang, B. Zhang, F. Liang, X.M. Luo, G.P. Zhang, Enhancing fatigue resistance of nanocrystalline Ni/Ni W laminated composites, Scripta Mater. 222 (2023) 114995.
· C. Sun, H. Wu, W. Chi, W. Wang, G. P. Zhang, Nanograin formation and cracking mechanism in Ti alloys under very high cycle fatigue loading, Int. J. Fatigue 167 (2023) 107331.
· W. K. Yang, B. L. Hu, Y. Luo, Z. M. Song, G.P. Zhang, Understanding geometrical size effect on fatigue life of A588 steel using a machine learning approach, Int. J. Fatigue 172 (2023) 107671.
· F. Wang, L.M. Lei, X. Fu, L. Shi, X.M. Luo, Z.M. Song, G.P. Zhang, Toward developing Ti alloys with high fatigue crack growth resistance by additive manufacturing, J. Mater. Sci. Technol. 132 (2023) 166 178.
· Z.X. Wang, F. Liang, G.P. Zhang, B. Zhang, Enhancing high temperature tensile properties of Ni/Ni W laminated composites for MEMS devices, J. Mater. Sci. Technol. 138 (2023) 129 137.
· G. D. Liu, X. M. Luo, J. P. Zou, B. Zhang, G. P. Zhang, Ultrahigh grain boundary strengthening ability of VCoNi medium entropy alloy, Mater. Charact. 206 (2023) 113419.
· J. Z. Chen, B. Zhang, Z. M. Song, G. P. Zhang, Biaxial tension torsion fatigue properties of A588 steel weld joint for high speed train bogie, Mater. Sci. Eng., A 865 (2023) 144634.
· B.L. Hu, Y.W. Luo, B. Zhang, G.P. Zhang, A Comparative Investigation of Machine Learning Algorithms for Pore Influenced Fatigue Life Prediction of Additively Manufactured Inconel 718 Based on a Small Dataset, Materials 16(19) (2023).
· S. Q. Wang, B. Zhang, R. H. Qiao, Y. W. Luo, X. M. Luo, G. P. Zhang, Adjusting Competitive Reaction to Control Nucleation and Growth of MnO2 for a High Stress Output Electrochemical Actuator, ACS Appl. Electron. Mater. 5(9) (2023) 4836 4845.
· Y. Y. Bai, B. Zhang, X. P. Wu, X. M. Luo, G. P. Zhang, Gradient Cu/Ti3C2Tx MXene Coated Textile Pressure Sensor with High Sensitivity and a Wide Sensing Range, ACS Appl. Nano Mater. 6(15) (2023) 14236 14244.
· G. D. Liu, X. M. Luo, J. P. Zou, B. Zhang, G. P. Zhang, Effects of Grain Size and Cryogenic Temperature on the Strain Hardening Behavior of VCoNi Medium Entropy Alloys, Acta Metall. Sin. (Engl. Lett.) 36(6) (2023) 973 986.
· J. P. Zou, X. M. Luo, B. Zhang, G. D. Liu, H. L. Chen, X. F. Zhu, W. K. Yang, G. P. Zhang, Microstructure Evolution and Tensile Properties of the Alx(CoCrNi)100 x Medium Entropy Alloys, Acta Metall. Sin. (Engl. Lett.) 36(12) (2023) 2045 2057.
· 程福来, 罗雪梅, 胡炳利, 张滨, 张广平, 锂离子电池用微米厚度超薄集流体Cu箔和Al箔疲劳强度及损伤行为, 金属学报 (2023).
· 张滨, 田达, 宋竹满, 张广平. 深潜器耐压壳用钛合金保载疲劳服役可靠性研究进展. 金属学报 59 (2023) 713-726.
2022
· F. Liang, Z.-X. Wang, B. Zhang, X.-M. Luo, G.-P. Zhang. Heterogeneous interface-enhanced strength of Ni/Ni–W laminated nanocomposites for high-temperature MEMS devices. Composites Part B: Engineering 243 (2022).
· S. Q. Wang, B. Zhang, Y. W. Luo, X. Meng, Z. X. Wang, X. M. Luo, G. P. Zhang. Maximizing Performance of a Hybrid MnO2/Ni Electrochemical Actuator through Tailoring Lattice Tunnels and Cation Vacancies. Acs Appl. Mater. Interfaces (2022).
· Y. C. Wang, L. M. Lei, L. Shi, F. Liang, H. Y. Wan, B. Zhang, G. P. Zhang. Effect of heat treatment on strain hardening ability of selective laser melted precipitation-hardened GH4169 superalloy. Mater. Charact. 190 (2022).
· F.-L. Cheng, W.-K. Yang, X.-M. Luo, G.-P. Zhang. Geometrical size effect on tensile properties of ultrathin current collector foils for lithium-ion batteries. J. Mater. Res. (2022).
· M. Y. Li, B. Zhang, Z. M. Song, X. M. Luo, G. P. Zhang. Detecting the Deformation Behavior of Bimodal Ti-6Al-4V Using a Digital Image Correlation Technique. Materials (Basel) 15 (2022).
· H. Y. Wan, W. K. Yang, L. Y. Wang, Z. J. Zhou, C. P. Li, G. F. Chen, L. M. Lei, G. P. Zhang. Toward qualification of additively manufactured metal parts: Tensile and fatigue properties of selective laser melted Inconel 718 evaluated using miniature specimens. J. Mater. Sci. Technol. 97 (2022) 239-253.
· F. Wang, X.-M. Luo, L.-M. Lei, X. Fu, B. Zhang, G.-P. Zhang. Theoretical Evaluation of Strengthening Ability of Phase Interfaces in Lamellar Ti Alloys. Adv. Eng. Mater. 24 (2022).
· Y. C. Wang, L. Y. Wang, B. Zhang, Z. M. Song, X. M. Luo, G. P. Zhang. Building height-related creep properties of Inconel 718 superalloy fabricated by laser powder bed fusion. Mater. Sci. Eng., A 854 (2022).
· W.-K. Yang, Z.-M. Song, X.-M. Luo, G.-P. Zhang. Evaluation of Tensile and Fatigue Properties of Metals Using Small Specimens. Acta Metallurgica Sinica (English Letters) (2022).
· L. R. Zeng, L. M. Lei, X. M. Luo, G. P. Zhang. Toward an understanding of dwell fatigue damage mechanism of bimodal Ti-6Al-4V alloys. J. Mater. Sci. Technol. 108 (2022) 244-255.
· J. P. Zou, X. M. Luo, B. Zhang, Y. W. Luo, H. L. Chen, F. Liang, G. P. Zhang. Enhancing bending fatigue resistance of the CoCrFeMnNi high-entropy alloy thin foils by Al addition. Mater. Sci. Eng., A 831 (2022) 142281.
2021
· F. Liang, Z. X. Wang, Y. W. Luo, B. Zhang, X. M. Luo, G. P. Zhang. Enhancing co-deformation ability of nanograined Ni-W layers in the Ni/Ni-W laminated composites. Acta Mater. 216 (2021) 117138.
· X. P. Wu, H. L. Chen, X. M. Luo, D. Wang, P. Schaaf, G. P. Zhang. Ultrasensitive Strain Sensors Based on Cu-Al Alloy Films with Voided Cluster Boundaries. Adv. Mater. Technol. (2021) 2100524.
· Z. G. Bai, Y. Y. Bai, G. P. Zhang, S. Q. Wang, B. Zhang. A hydrogen bond based self-healing superhydrophobic octadecyltriethoxysilane?lignocellulose/silica coating. Prog. Org. Coat. 151 (2021) 106104.
· H. L. Chen, X. M. Luo, D. Wang, P. Schaaf, G. P. Zhang. Achieving very high cycle fatigue performance of Au thin films for flexible electronic applications. J. Mater. Sci. Technol. 89 (2021) 107-113.
· J. Z. Chen, Q. Du, G. P. Zhang, B. Zhang. Toward Eliminating Discontinuous Yielding Behavior of the EA4T Steel. Materials 14 (2021) 6121.
· Y. W. Luo, T. Ma, W. W. Shao, G. P. Zhang, B. Zhang. Effects of heat treatment on microstructures and mechanical properties of GH4169/K418 functionally graded material fabricated by laser melting deposition. Mater. Sci. Eng., A 821 (2021) 141601.
· Y. W. Luo, B. Zhang, X. Feng, Z. M. Song, X. B. Qi, C. P. Li, G. F. Chen, G. P. Zhang. Pore-affected fatigue life scattering and prediction of additively manufactured Inconel 718: An investigation based on miniature specimen testing and machine learning approach. Mater. Sci. Eng., A 802 (2021) 140693.
· T. Ma, B. Zhang, L. Y. Wang, Z. M. Song, X. M. Luo, C. S. Liu, G. P. Zhang. Anisotropy of small punch creep performance of selective laser melted GH4169 at 650 ?C. Mater. Sci. Eng., A 806 (2021) 140608.
· W. K. Yang, L. Y. Wang, Z. M. Song, X. M. Luo, G. P. Zhang. Tensile Plasticity of Miniature Specimens for a Low Alloy Steel Investigated by Digital Image Correlation Technique. Steel Research International 92 (2021) 2000685.
· L. R. Zeng, L. Y. Wang, P. T. Hua, Z. P. He, G. P. Zhang. In-situ investigation of dwell fatigue damage mechanism of pure Ti using digital image correlation technique. Mater. Charact. 181 (2021) 111466.
2020
· F. Liang, B. Zhang, Y. Yong, X.-M. Luo, G.-P. Zhang, Enhanced strain delocalization through formation of dispersive micro shear bands in laminated Ni, Int. J. Plasticity. (2020) 102745.
· H.Y. Wan, Effects of surface roughness and build thickness on fatigue properties of selective laser melted Inconel 718 at 650 ℃, Int. J. Fatigue (2020).
· L.Y. Wang, Y.C. Wang, Z.J. Zhou, H.Y. Wan, C.P. Li, G.F. Chen, G.P. Zhang, Small punch creep performance of heterogeneous microstructure dominated Inconel 718 fabricated by selective laser melting, Mater. Des. 195 (2020).
· S.-Q. Wang, B. Zhang, X.-M. Luo, F. Liang, G. Zhang, Ruling out Delamination and Bismuth-enhanced Polyimide Electrochemical Actuator with Tunable Active/Passive Layer Thickness, Journal of Materials Chemistry A (2020).
· Y.-Y. Bai, B. Zhang, Z.-X. Wang, Y.-J. Yang, X.-P. Wu, G.-P. Zhang, Tailoring sensing behavior of Cu@multi-wall carbon nanotubes/polydimethylsiloxane strain sensors through surface Cu geometrical structures, Journal of Materials Chemistry C 8(15) (2020) 5202-5210.
· J.Z. Chen, B. Zhang, Z.M. Song, H.Y. Wan, G.P. Zhang, Influence of pre-torsion angles on torsion fatigue properties of 45CrMoVA steel bars, Int. J. Fatigue 137 (2020).
· W.W. Shao, B. Zhang, Y. Liu, C.S. Liu, P. Tan, S. Shang, G.P. Zhang, Effect of laser power on porosity and mechanical properties of GH4169 fabricated by laser melting deposition, Tungsten 1(4) (2020) 297-305.
· Y.-W. Luo, B. Zhang, Z.-M. Song, C.-P. Li, G.-F. Chen, G.-P. Zhang, A comparative investigation of long-term oxidation behavior of selective laser melting–fabricated Inconel 718 at 650 °C, J. Mater. Res. 35(15) (2020) 2036-2045.
· F. Wang, L.-M. Lei, X. Fu, Z.-M. Song, L. Shi, B. Zhang, G.-P. Zhang, Effect of heat treatment on microstructures and tensile properties of TA19 alloy fabricated by laser metal deposition, Mater. Sci. Eng., A 782 (2020) 139284.
· X.-P. Wu, X.-M. Luo, H.-L. Chen, J.-P. Zou, G.-P. Zhang, A unified model for determining fracture strain of metal films on flexible substrates, J. Mater. Sci. Technol. 54 (2020) 87-94.
· Y.-J. Yang, B. Zhang, H.-Y. Wan, G.-P. Zhang, Role of Cu/graphene interface in suppressing fatigue damage of submicron Cu films for flexible electronics, Mater. Sci. Eng., A 792 (2020).
· S.X. Zheng, X.M. Luo, G.P. Zhang, Cumulative shear strain–induced preferential orientation during abnormal grain growth near fatigue crack tips of nanocrystalline Au films, J. Mater. Res. 35(4) (2020) 372-379.
2019
· F. Liang, D. Wang, X. Li, X.M. Luo, P. Schaaf, G.P. Zhang, A model revealing grain boundary arrangement-dominated fatigue cracking behavior in nanoscale metallic multilayers, MRS Commun 9(5) (2019) 936-940.
· G.P. Zhang, F. Liang, X.M. Luo, X.F. Zhu, A review on cyclic deformation damage and fatigue fracture behavior of metallic nanolayered composites, J Mater Res 34(9) (2019) 1479-1488.
· Y.J. Yang, B. Zhang, H.Y. Wan, K. Liu, G.P. Zhang, Bilayer graphene-covered Cu flexible electrode with excellent mechanical reliability and electrical performance, J Mater Res 34(21) (2019) 3645-3653.
· H.L. Chen, X.M. Luo, D. Wang, M. Ziegler, U. Huebner, B. Zhang, G.P. Zhang, Length-scale dominated thermal fatigue behavior in nanocrystalline Au interconnect lines, Materialia 7 (2019) 100337.
· L.Y. Wang, Z.J. Zhou, C.P. Li, G.F. Chen, G.P. Zhang, Comparative investigation of small punch creep resistance of Inconel 718 fabricated by selective laser melting, Mater Sci Eng, A 745 (2019) 31-38.
· H.Y. Wan, Z.J. Zhou, C.P. Li, G.F. Chen, G.P. Zhang, Effect of scanning strategy on mechanical properties of selective laser melted Inconel 718, Mater Sci Eng, A 753 (2019) 42-48.
· F. Wang, X.M. Luo, D. Wang, P. Schaaf, G.P. Zhang, Fatigue behavior of nanoscale Mo/W multilayers on flexible substrates, MRS Advances 4(43) (2019) 2309-2317.
· H.Y. Wan, G.F. Chen, C.P. Li, X.B. Qi, G.P. Zhang, Data-driven evaluation of fatigue performance of additive manufactured parts using miniature specimens, J Mater Sci Technol 35(6) (2019) 1137-1146.
· F. Liang, X.-M. Luo, G.-P. Zhang, Interface-coupling-dependent mechanical behaviors of sandwich-structured Ni/Cu/Ni composites, Mater Sci Eng, A 743 (2019) 436-444.
· Z.H. Ma, B. Zhang, Z.M. Song, H.S. Liu, G.P. Zhang, Evaluation of the Low-Cycle Fatigue Life of Thin Dual-Phase Steel Sheets for Automobiles Using Miniature Specimens, Steel Research International 90(11) (2019) 1900186-1-9.
· Y.W. Luo, B. Zhang, C.P. Li, G.F. Chen, G.P. Zhang, Detecting void-induced scatter of fatigue life of selective laser melting-fabricated inconel 718 using miniature specimens, Mater Res Express 6(4) (2019) 046549-1-7.
· X.M. Luo, B. Zhang, G.P. Zhang, Fatigue of metals at nanoscale: Metal thin films and conductive interconnects for flexible device application, Nano Materials Science 1(3) (2019) 198-207.
· A. Gola, G.P. Zhang, L. Pastewka, R. Schwaiger, Surface flaws control strain localization in the deformation of Cu|Au nanolaminate pillars, MRS Commun 9(3) (2019) 1067-1071.
· X.F. Zhu, Y.B. Zhao, L.P. Ma, G.P. Zhang, W.C. Ren, X.H. Peng, N. Hu, L. Rintoul, J.M. Bell, C. Yan, Graphene coating makes copper more resistant to plastic deformation, Composites Communications 12 (2019) 106-111.
· 宋竹满, 李瑞, 钱苗, 史文博, 钱科, 马恒, 陈庆吟, 张广平, 基于8.8级螺栓疲劳性能的预紧力优化, 材料研究学报 33(08) (2019) 629-634.
· 王源晨, 宋竹满, 李瑞, 史文博, 朱艳坤, 张广平, 8.8级螺栓用ML40Cr钢的疲劳性能和裂纹扩展行为, 材料研究学报 33(10) (2019) 771-775.
2018
· G.P. Zhang, H.L. Chen, X.M. Luo, B. Zhang, Progress in Thermal Fatigue of Micro/Nano-ScaleMetal Conductors, Acta Metall. Sin. 54(3) (2018) 357-366.
· H.-Y. Wan, Z.-J. Zhou, C.-P. Li, G.-F. Chen, G.-P. Zhang, Enhancing Fatigue Strength of Selective Laser Melting-Fabricated Inconel 718 by Tailoring Heat Treatment Route, Adv Eng Mater 20(10) (2018) 1800307.
· L.R. Zeng, L.M. Lei, J. Yang, X.M. Luo, G.P. Zhang, Microstructure-dependent local fatigue cracking resistance of bimodal Ti-6Al-4V alloys, Adv Eng Mater 20(4) (2018) 1700702
· Y.-J. Yang, B. Zhang, H.-Y. Wan, G.-P. Zhang, Optimizing fatigue performance of nacre-mimetic PE/TiO2 nanolayered composites by tailoring thickness ratio, J Mater Res 33(11) (2018) 1543-1552.
· H.Y. Wan, Z.J. Zhou, C.P. Li, G.F. Chen, G.P. Zhang, Effect of scanning strategy on grain structure and crystallographic texture of Inconel 718 processed by selective laser melting, J Mater Sci Technol 34(10) (2018) 1799-1804.
· Y.C. Wang, X.M. Luo, L.J. Chen, H.W. Yang, B. Zhang, G.P. Zhang, Enhancement of shear stability of a Fe-based amorphous alloy using electrodeposited Ni layers, J Mater Sci Technol 34(12) (2018) 2283-2289.
· L.R. Zeng, H.L. Chen, X. Li, L.M. Lei, G.P. Zhang, Influence of alloy element partitioning on strength of primary α-phase in Ti-6Al-4V alloy, Journal of Materials Science and Technology 34(5) (2018) 782-787.
· X. Li, X.-M. Luo, G.-P. Zhang, Dislocation-dominated non-crystallographic rotation in shear bands of Cu/Au nanolayered composites, Mater Lett 226 (2018) 67-70.
· F. Liang, C.Y. Dai, G.P. Zhang, Grain refinement of micrometer-scale Cu foils through accumulative cyclic deformation, Mater Res Express 5(6) (2018) 066406.
· S.X. Zheng, X.M. Luo, D. Wang, G.P. Zhang, A novel evaluation strategy for fatigue reliability of flexible nanoscale films, Mater Res Express 5(3) (2018) 035012.
· H.F. Tan, B. Zhang, G.P. Zhang, Toward an understanding of post-necking behavior in ultrafine-scale Cu/Ni laminated composites, Mater Sci Eng, A 716 (2018) 72-77.
· L.-Y. Wang, Z.-M. Song, X.-M. Luo, G.-P. Zhang, 3D X-ray tomography characterization of creep cavities in small-punch tested 316 stainless steels, Mater Sci Eng, A 724 (2018) 69-74.
· Y.C. Wang, F. Liang, H.F. Tan, B. Zhang, G.P. Zhang, Enhancing fatigue strength of high-strength ultrafine-scale Cu/Ni laminated composites, Mater Sci Eng, A 714 (2018) 43-48.
· J.-Z. Chen, B. Zhang, L.-R. Zeng, Z.-M. Song, Y.-Y. She, G.-P. Zhang, Optimal Bainite Contents for Maximizing Fatigue Cracking Resistance of Bainite/Martensite Dual-Phase EA4T Steels, Steel Res Int 89(7) (2018) 1700562.
2017
· F. Liang, H.-F. Tan, B. Zhang, G.-P. Zhang. Maximizing necking-delayed fracture of sandwich-structured Ni/Cu/Ni composites. Scripta Mater. 134 (2017) 28-32.
· X. Li, T. Kreuter, X. M. Luo, R. Schwaiger, G. P. Zhang. Detecting co-deformation behavior of Cu–Au nanolayered composites. Mater. Res. Lett. 5 (2017) 20-28.
· X. M. Luo, X. Li, G. P. Zhang. Forming incoherent twin boundaries: a new way for nanograin growth under cyclic loading. Mater. Res. Lett. 5 (2017) 95-101.
· Y. J. Yang, B. Zhang, H. F. Tan, X. M. Luo, G. P. Zhang. Fatigue and fracture reliability of shell-mimetic PE/TiO2 nanolayered composites. ·Adv. Eng. Mater. (2017) 1-6.
· X. M. Luo, G. P. Zhang. Grain boundary instability dependent fatigue damage behavior in nanoscale gold films on flexible substrates. Mater. Sci. Eng., A 702 (2017) 81-86.
· X. M. Luo, G. P. Zhang. Deformation-mechanism dependent stretchability of nanocrystalline gold films on flexible substrates. J. Mater. Res. (2017). DOI: 10.1557/jmr.2017.349.
2016
· X. M. Luo, B. Zhang, X. F. Zhu, Y. T. Zhou, T. Y. Xiao, G. P. Zhang. Local-structure-affected behavior during self-driven grain boundary migration. MRS Commun. 6 (2016) 85-91.
· H. F. Tan, B. Zhang, X. M. Luo, X. F. Zhu, G. P. Zhang. High-Cycle Fatigue Properties of Ultrafine-Scale Cu/Ni Laminated Composites·Adv. Eng. Mater. 18 (2016) 2003-2009.
· H. F. Tan, B. Zhang, Y. K. Yang, X. F. Zhu, G. P. Zhang. Fracture behavior of sandwich-structured metal/amorphous alloy/metal composites. Mater. Des. 90 (2016) 60-65.
· X. M. Luo, Z. M. Song, M. L. Li, Q. Wang, G. P. Zhang. Microstructural Evolution and Service Performance of Cold-drawn Pure Aluminum Conductor Wires. J. Mater. Sci. Technol. (2016) 1-5.
· H. Y. Wan, X. M. Luo, X. Li, W. Liu, G. P. Zhang. Nanotwin-enhanced fatigue resistance of ultrathin Ag films for flexible electronics applications. Mater. Sci. Eng., A 676 (2016) 421-426.
2015
· L. R. Zeng, Z. M. Song, X. M. Wu, C. H. Li, G. P. Zhang. Fatigue cracking behavior of 6063 aluminum alloy for fitting clamps of overhead conductor lines. Mater. Des. 88 (2015) 478-484.
· L. R. Zeng, Z. M. Song, X. M. Wu, C. H. Li, G. P. Zhang. Room-temperature workability of 6063 alloy for fitting clamps of overhead conductor lines. Mater. Des. 65 (2015) 187-192.
· B. Zhang, T. Y. Xiao, X. M. Luo, X. F. Zhu, G. P. Zhang. Enhancing fatigue cracking resistance of nanocrystalline Cu films on a flexible substrate. Mater. Sci. Eng., A 627 (2015) 61-64.
· Z. Song, X. Wu, C. Li, Z. Zhang, G. Zhang. Effects of rolling deformation and heat treatment on mechanical properties and electrical conductivity of 6060 aluminum alloy. Trans. Mater. Heat Treat. 36 (2015) 42-46.
· N. Hu, X. Q. Feng, S. Y. Fu, C. Yan, G. P. Zhang, J. H. Gou. Mechanical Behavior of Nanostructured Materials. J. Nanomater. 2015 (2015) 1-2.
· H. M. Ji, Y. Jiang, W. Yang, G. P. Zhang, X.-W. Li, T. Troczynski. Biological Self-Arrangement of Fiber Like Aragonite and Its Effect on Mechanical Behavior of Veined rapa whelkShell. J. Am. Ceram. Soc. 98 (2015) 3319-3325.
· M. C. Wang, G. P. Zhang, H. S. Peng, C. Yan. Energetic and thermal properties of tilt grain boundaries in graphene/hexagonal boron nitride heterostructures. Funct. Mater. Lett. 08 (2015) 1550038.
2014
· X. M. Luo, X. F. Zhu, G. P. Zhang. Nanotwin-assisted grain growth in nanocrystalline gold films under cyclic loading. Nat. Commun. 5 (2014).
· X. M. Luo, B. Zhang, G. P. Zhang. Frequency-dependent failure mechanisms of nanocrystalline gold interconnect lines under general alternating current. J. Appl. Phys. 116 (2014) 103509.
· H. F. Tan, B. Zhang, X. M. Luo, X. D. Sun, G. P. Zhang. Strain rate dependent tensile plasticity of ultrafine-grained Cu/Ni laminated composites. Mater. Sci. Eng. A-Struct. Mater. Prop. Microstruct. Process. 609 (2014) 318-322.
· H. F. Tan, B. Zhang, J. W. Yan, X. D. Sun, G. P. Zhang. Synthesis and toughening behavior of bio-inspired nanocrystalline TiO2/polyelectrolyte nanolayered composites. Mater. Res. Bull. 50 (2014) 128-131.
· J. Xu, C. Y. Dai, B. Zhang, G. P. Zhang. Strain-gradient dependent fatigue behavior of micron-thick copper single crystal foils. Comp. Mater. Sci. 85 (2014) 223-229.
· J. Xu, G. P. Zhang. Effects of grain size and initial immobile dislocation density on fatigue behavior of polycrystalline metals. Mater. Sci. Eng. A-Struct. Mater. Prop. Microstruct. Process. 590 (2014) 194-198.
· J. Yang, Z. M. Song, L. M. Lei, G. P. Zhang. Detecting mechanical properties of microstructure units in Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloy. Mater. Sci. Eng. A-Struct. Mater. Prop. Microstruct. Process. 617 (2014) 84-88.
· B. Zhang, Z. M. Song, L. M. Lei, L. Kang, G. P. Zhang. Geometrical Scale-Sensitive Fatigue Properties of Ti-6.5Al-3.5Mo-1.5Zr-0.3Si Alloys With alpha/beta Lamellar Microstructures. J. Mater. Sci. Technol. 30 (2014) 1284-1288.
· G. Zhang, M. Li, X. Wu, C. Li, X. Luo. Research Progress on Effect of Length Scale on Electrical Resistivity of Metals. Chin. J. Mater. Res. 28 (2014) 81-87.
· G. Zhang, X. Zhu. Design of high-performance cu-based nanolayered materials: on strengthening and toughening abilities at the nanoscales. Acta Metallurgica Sinica 50 (2014) 148-155.
· Y. Zhang, X. Gao, B. Zhang, Z. Song, J. Zheng, G. Zhang. Effect of Deformation Temperature on Microstructure Evolution of S30408 Austenitic Stainless Steel for Cold-stretching Cryogenic Vessels. Chin. J. Mater. Res. 28 (2014) 682-688.
· C. Ensslen, O. Kraft, R. Monig, J. Xu, G. P. Zhang, R. Schneider. Mechanical annealing of Cu-Si nanowires during high-cycle fatigue. MRS Commun. 4 (2014) 83-87.
2013
· J. W. Yan, X. F. Zhu, B. Yang, G. P. Zhang. Shear stress-driven refreshing capability of plastic deformation in nanolayered metals. Phys. Rev. Lett. 110 (2013) 155502.
· J. W. Yan, G. P. Zhang. Revealing the tunable twinning/detwinning behavior in 25·nm Cu/Au multilayers. Appl. Phys. Lett. 102 (2013) 211905.
· J. Yang, J. Xu, G.-P. Zhang. Deformation and damage behavior of colonies in a small-sized alpha/beta Ti alloy. Scripta Mater. 68 (2013) 715-718.
· C. Y. Dai, J. Xu, B. Zhang, G. P. Zhang. Understanding scale-dependent yield stress of metals at micrometre scales. Phil. Mag. Lett. 93 (2013) 531-540.
· C. Y. Dai, B. Zhang, J. Xu, G. P. Zhang. On size effects on fatigue properties of metal foils at micrometer scales. Mater. Sci. Eng. A-Struct. Mater. Prop. Microstruct. Process. 575 (2013) 217-222.
· H. M. Ji, Y. Jiang, W. Yang, G. P. Zhang, X. W. Li. Comparisons of Microstructures and Hardness Distribution between Clinocardium Californiense and Veined Rapa Whelk Shells. Key Eng. Mater. 544 (2013) 295-298.
· M. Wang, C. Yan, L. Ma, N. Hu, G. Zhang. Numerical analysis of shape transition in graphene nanoribbons. Comp. Mater. Sci. 75 (2013) 69-72.
· J. Xu, G.-P. Zhang. Fatigue Damage Behavior of Freestanding 40 mu m-Thick Nickel Foils for MEMS Applications. Adv. Eng. Mater. 15 (2013) 496-502.
· J. W. Yan, G. P. Zhang, X. F. Zhu, H. S. Liu, C. Yan. Microstructures and strengthening mechanisms of Cu/Ni/W nanolayered composites. Philos. Mag. 93 (2013) 434-448.
· J. W. Yan, X. F. Zhu, G. P. Zhang, C. Yan. Evaluation of plastic deformation ability of Cu/Ni/W metallic multilayers. Thin Solid Films 527 (2013) 227-231.
· B. Zhang, L. M. Lei, X. L. Jiang, Z. M. Song, X. Huang, G. P. Zhang. On Temperature and Strain Rate Dependent Strain Localization Behavior in Ti-6.5Al-3.5Mo-1.5Zr-0.3Si Alloy. J. Mater. Sci. Technol. 29 (2013) 273-278.
· B. Zhang, H.-F. Tan, J.-W. Yan, M.-D. Zhang, X.-D. Sun, G.-P. Zhang. Microstructures and mechanical performance of polyelectrolyte/nanocrystalline TiO2 nanolayered composites. Nanoscale Res. Lett. 8 (2013) 1-5.
2012
· B. Zhang, L.-M. Lei, J. Yang, X.-H. Guo, G.-P. Zhang. Fatigue properties of titanium alloy thin foils for MEMS applications. Mater. Lett. 89 (2012) 302-304.
· H. Diao, C. Yan, J. M. Bell, L. Lu, G. P. Zhang, S. Kabra, K. D. Liss, M. W. Chen. Compressive behaviour of nanocrystalline Mg-5Al alloys. Mater. Technol. 27 (2012) 85-87.
· Z. M. Song, L. M. Lei, B. Zhang, X. Huang, G. P. Zhang. Microstructure Dependent Fatigue Cracking Resistance of Ti-6.5Al-3.5Mo-1.5Zr-0.3Si Alloy. J. Mater. Sci. Technol. 28 (2012) 614-621.
2011
· H. S. Liu, B. Zhang, G. P. Zhang. Delaying premature local necking of high-strength Cu: A potential way to enhance plasticity. Scripta Mater. 64 (2011) 13-16.
· H. S. Liu, B. Zhang, G. P. Zhang. Enhanced toughness and fatigue strength of cold roll bonded Cu/Cu laminated composites with mechanical contrast. Scripta Mater. 65 (2011) 891-894.
· C. Y. Dai, G. P. Zhang, C. Yan. Size effects on tensile and fatigue behaviour of polycrystalline metal foils at the micrometer scale. Philos. Mag. 91 (2011) 932-945.
· H. S. Liu, B. Zhang, G. P. Zhang, in Nanomaterials by Severe Plastic Deformation: Nanospd5, Pts 1 and 2, J. T. Wang, R. B. Figueiredo, T. G. Langdon, Eds. (2011), vol. 667-669, pp. 1015-1020.
· W. Yang, G. P. Zhang, X. F. Zhu, X. W. Li, M. A. Meyers. Structure and mechanical properties of Saxidomus purpuratus biological shells. J. Mech. Behav. Biomed. Mater. 4 (2011) 1514-1530.
· W. Yang, G. Zhang, H. Liu, X. Li. Microstructural Characterization and Hardness Behavior of a Biological Saxidomus purpuratus Shell. J. Mater. Sci. Technol. 27 (2011) 139-146.
· H. S. Liu, B. Zhang, G. P. Zhang. Microstructures and Mechanical Properties of Al/Mg Alloy Multilayered Composites Produced by Accumulative Roll Bonding. J. Mater. Sci. Technol. 27 (2011) 15-21.
· G. P. Zhang, C. A. Volkert, R. Schwaiger, E. Arzt, O. Kraft. Damage Behavior of 200-nm Thin Copper Films Under Cyclic Loading. J. Mater. Res. 20 (2011) 201-207.
· M. Wang, B. Zhang, G. P. Zhang, C. S. Liu. Scaling of reliability of gold interconnect lines subjected to alternating current. Appl. Phys. Lett. 99 (2011) 011910-011913.
· M. Wang, B. Zhang, C. Liu, G. Zhang. Study on thermal fatigue failure of thin gold film with alternating current loading. Acta Metallurgica Sinica 47 (2011) 601-604
2010
· Y. P. Li, G. P. Zhang. On plasticity and fracture of nanostructured Cu/X (X = Au, Cr) multilayers: The effects of length scale and interface/boundary. Acta Mater. 58 (2010) 3877-3887.
· X. F. Zhu, G. P. Zhang, C. Yan, S. J. Zhu, J. Sun. Scale-dependent fracture mode in Cu-Ni laminate composites. Phil. Mag. Lett. 90 (2010) 413-421.
· B. Zhang, K. H. Sun, Y. Liu, G. P. Zhang. On the length scale of cyclic strain localization in fine-grained copper films. Phil. Mag. Lett. 90 (2010) 69-76.
· Y. P. Li, X. F. Zhu, G. P. Zhang, J. Tan, W. Wang, B. Wu. Investigation of deformation instability of Au/Cu multilayers by indentation. Philos. Mag. 90 (2010) 3049-3067.
· G. P. Zhang, Y. P. Li, X. F. Zhu. Toward Understanding Size-Dependent Plasticity Of Nanolayered Metallic Composites. Mater. Sci. Forum 633-634 (2010) 637-646.
· X. F. Zhu, Y. P. Li, G. P. Zhang, S. J. Zhu. On strain-localized damage in nanoscale Cu-Ta multilayers on a flexible substrate. Mater. Sci. Eng. A-Struct. Mater. Prop. Microstruct. Process. 527 (2010) 3279-3283.
· W. Yang, Y. Jiang, G. P. Zhang, Y. S. Chao, X. W. Li, in High-Performance Ceramics Vi, W. Pan, J. Gong, Eds. (2010), vol. 434-435, pp. 601.
2009
· Y. P. Li, X. F. Zhu, J. Tan, B. Wu, G. P. Zhang , Two different types of shear deformation behaviour in Au/Cu multilayers, Philos. Mag. Lett. , 89 (2009) pp. 66-74.
· X. F. Zhu, B. Zhang , J. Gao, G. P. Zhang , Evaluation of crack-initiation strain of Cu-Ni multilayer on a flexible substrate, Scripta Mater . 60 (2009) pp. 178-181.
· J. Zhang, J. Y. Zhang , G. Liu, Y. Zhao, X.D. Ding, G. P. Zhang , J. Sun, Unusual thermal fatigue behaviors in 60 nm thick Cu interconnects, Scripta Mater. 60 (2009) pp. 228-231.
· Y. P. Li, X. F. Zhu, J. Tan, B. Wu, W. Wang , G. P. Zhang , Comparative investigation of strength and plastic instability in Cu/Au and Cu/Cr multilayers by indentation, J. Mater. Res. , 24 (2009) pp. 728-735.
· M. Wang , B. Zhang , G. P. Zhang , C. S. Liu , Evaluation of thermal fatigue damage of 200 nm-thick Au interconnect lines, Scripta Mater. (2009) in press.
· X. F. Zhu, G. P. Zhang, Tensile and fatigue properties of ultrafine-scale Cu-Ni multilayers, J. Phys. D: Appl. Phys.. 42 (2009) pp. 055411.
· Y. P. Li, X. F. Zhu, J. Tan, G. P. Zhang , Suppression of premature fracture of silicon: Role of nanoscale localized deformation of metallic multilayered coating, Adv. Eng. Mater . 11 (2009) pp. 63-66.
· M. Wang , B. Zhang , Q. Y. Yu , C. S. Liu and G. P. Zhang , Effects of interface and grain boundary on the electrical resistivity of Cu/Ta multilayers. J. Mater. Sci. Tech . 25 (2009) pp. 699-702.
· X. W. Li, Y. Zhou, W. W. Guo, G. P. Zhang, Characterization of dislocation structures in [-111] copper single crystals using electron channelling contrast technique in SEM. Cryst. Res. Tech. 44 (2009) pp. 315-321.
· J. L. Ni, X. F. Zhu,G.P.Zhang,Comparative investigation of fracture behaviour of aluminium-doped ZnO films on a flexible substrate. J. Phys. D: Appl. Phys.42(2009) pp.175404.
· C. Y. Dai, X. F. Zhu, G. P. Zhang,Tensile and Fatigue Properties of Free-Standing Cu Foils. J. Mater. Sci. Tech . 25 (2009) pp. 721-726.
2008
· X. F. Zhu, Y. P. Li, G. P. Zhang , J. Tan, Y. Liu , Understanding nanoscale damage at a crack tip of multilayered metallic composites. Appl. Phys. Lett . 92 (2008) pp.161905-1~161905-3.
· Y. P. Li, J. Tan, G. P. Zhang , Interface instability within shear bands in nanoscale Au/Cu multilayers, Scripta Mater . 59 (2008) pp.1226-1229.
· G. P. Zhang , K. H. Sun, B. Zhang , J. Gong, C. Sun and Z. G. Wang: Tensile and fatigue strength of ultrathin copper films. Mater. Sci. En g. A483-484 (2008) pp. 387-390.
· B. Zhang , Q. Y. Yu , J. Tan, G. P. Zhang , Electric Current-induced Failure of 200-nm-thick Gold Interconnects. J. Mater. Sci. Tech . 24 (6) (2008) pp. 895-899.
· Y. P. Li, G. P. Zhang , Z. G. Wang, Strength and Plastic Deformation Behavior of Nano-Scale Au-Cu and Cr-Cu Multilayers, Adv. Mater. Res ., 41-42 (2008) pp. 3-8.
· X. J. Sun, C. C. Wang 1, J. Zhang, G. Liu, G. J. Zhang, X. D, Ding,G. P. Zhang and J. Sun, Thickness dependent fatigue life at microcrack nucleation for metal thin films on flexible substrates, J. Phys. D: Appl. Phys . 41 (2008) pp. 195404.
2007
· G. P. Zhang, C. A. Volkert, R. Schwaiger, R. M?nig and O. Kraft: Fatigue and Thermal Fatigue Damage Analysis of Thin Metal Films. Microelectronics Reliability , 47 (2007) pp. 2007-2013.
· Y. P. Li, G. P. Zhang, J. Tan and B. Wu, Direct observation of dislocation plasticity in 100 nm scale Au/Cu multilayers. Appl. Phys. Lett . 91 (2007) pp.061912-1-061912-3.
· Y. P. Li, G. P. Zhang, W. Wang , J. Tan, and S. J. Zhu: On interface strengthening ability in metallic multilayers. Scripta Mater . 57 (2007) pp. 117-120.X.
· F. Zhu, G. P. Zhang, J. Tan, Y. Liu and S. J. Zhu: Damage behaviors of Cu/Ta bilayered films under cyclic loading, J. Mater. Res . 22 (2007) pp. 2478-2482.
· T. Xu, X. Jiao, G. P. Zhang and S. Blair, Second-harmonic emission from sub-wavelength apertures: Effects of aperture symmetry and lattice arrangement, Optics Express 15 (2007) pp. 13894-13906.
· B. Zhang , K. H. Sun, J. Gong, C. Sun, Z. G. Wang, G. P. Zhang: Fatigue properties of nanometer-scale copper films. Key Eng. Mater. 353-358 (2007) pp. 116-119.
· G. P. Zhang, B. Zhang , Q. Y. Yu : In-situ thermal-mechanical fatigue testing of thin Au lines. Key Eng. Mater . 353-358 (2007) pp. 2916-2919.
· X. M. Wu, G. P. Zhang, J. Q. Zhang , W. G. Chen, Effects of Microstructures on Strength and Fatigue Properties of Long-term-serviced F12 Steels, Key Eng. Mater. 353-358 (2007) pp. 295-298.
2006
· G. P. Zhang , C.A. Volkert, R. Schwaiger, P. Wellner, E. Arzt, O. Kraft: Length-scale-controlled fatigue mechanisms in thin copper films. Acta mater . 54 (2006) pp. 3127-3139.
· G. P. Zhang , Y. Liu , W. Wang and J. Tan: Experimental evidence of plastic deformation instability in nanoscale Au/Cu multilayers. Appl. Phys. Lett . 88 (2006) pp. 013105-1~013105-3. Also see Virtual Journal of Nanoscale Science & Technology , 13 (2006).
· G. P. Zhang , X. F. Zhu, J. Tan and Y. Liu : Origin of cracking in nanoscale Cu/Ta multilayers. Appl. Phys. Lett . 89 (2006) pp. 041920-1~041920-3.
· G. P. Zhang , Y. Liu , B. Zhang : Effect of annealing close to T g on notch fracture toughness of Pd-based thin-film metallic glass for MEMS applications. Scripta Mater . 54 (2006) pp. 897-901.
· G. P. Zhang , K. Takashima, Y. Higo: Fatigue strength of small-scale type 304 stainless steel thin films. Mater. Sci. Eng . A 426 (2006) pp. 95-100.
· Z. L. Pei, X. B. Zhang , G. P. Zhang , J. Gong, C. Sun, R. F. Huang,, L. S. Wen, “Transparent conductive ZnO: Al thin films deposited on flexible substrates prepared by direct current magnetron sputtering”, Thin Solid Films 497 (1-2) (2006) pp. 20-23.
· B. Zhang , W. Wang and G. P. Zhang : Depth dependent hardness variation in Ni–P amorphous film under nanoindentation. Mater. Sci. Tech . 22 (2006) pp. 734-737.
2005
· G. P. Zhang , C.A. Volkert, R. Schwaiger, O. Kraft, Damage behavior of 200-nm thin copper films under cyclic loading, J. Mater. Res . 20 (2005) pp. 201-207. Also see MRS Bulletin 30 (2005) 4.
· G. P. Zhang , W. Wang , B. Zhang , J. Tan, C.S. Liu, On rate-dependent serrated flow behavior in amorphous metals during nanoindentation, Scripta Mater . 52 (2005) 1147-1151.
· G. P. Zhang , C.A. Volkert, R. Schwaiger, O. Kraft, Microscopic Investigation of Strain Localization and Fatigue Damage in Thin Cu Films. Mater. Sci. Forum . 475-479 (2005) pp. 3647-3650.
· G. P. Zhang , Y. Liu , B. Zhang , Deformation behavior of free-standing Pd-based thin film metallic glass for micro electro mechanical systems applications. Adv. Eng. Mater . 7 (2005) pp. 606-609.
Before 2004
· G. P. Zhang , R. Schwaiger, C. A. Volkert and O. Kraft, “Effect of film thickness and grain size on fatigue-induced dislocation structures in Cu thin film”, Philo. Mag. Lett . 83 (2003) pp. 477-483.
· G. P. Zhang , K. Takashima, M. Shimojo and Y. Higo, “Fatigue Behavior of Micro-Sized Austenitic Stainless Steel Specimens”, Mater. Lett ., 57 (2003) pp. 1555-1560.
· G. P. Zhang , K. Takashima, M. Shimojo and Y. Higo, “Deformation Behavior of Fine-Grained Austenitic Stainless Steel Using Micro-Sized Specimens”, Int. J. of Mater. & Prod. Tech. 1 (2001) pp. 298-303.
· G. P. Zhang and Z. G. Wang, “Creep-fatigue crack growth of intermetallic compound Ni 3 Al(B) at elevated temperature”, Mater. Sci. Tech . 15 (1999) pp. 1230-1235.
· G. P. Zhang , Z. G. Wang and G. Y, Li, “Cyclic Deformation Behavior of [023] Oriented Ni 3 Al(B) Single Crystals ” , Mater. Sci. Tech . 15 (1999) pp. 468-470.
· G. P. Zhang and Z. G. Wang. “Effects of Orientation and Loading Mode on Short Fatigue Crack Grwoth in Ni 3 Al Alloy Single Crystals ”, Key Eng. Mater ., 145-149 (1998) pp. 871-876.
· G. P. Zhang and Z. G. Wang, “Deformation and Fracture Behavior in Ni 3 Al Alloy Single Crystals ”, J. Mater. Sci. Lett . 17 (1998) pp. 61-64.
· G. P. Zhang , Z. G. Wang and G. Y. Li, “Fatigue Crack Growth of Ni 3 Al(CrB) Single Crystals at Ambient and Elevated Temperatures”, Acta Mater . 45 (1997) pp. 1705-1714.
· G. P. Zhang , Z. G. Wang, G. Y. Li and S. D. Wu, “Crystallographic Study of Fatigue Cracking in Ni 3 Al(CrB) Single Crystal ”, Metall. Mater. Trans . 28A (1997) pp. 665-672.
· G. P. Zhang and Z. G. Wang, “Short Fatigue Crack Growth in Ni 3 Al Alloy Single Crystals Under Mixed Mode Loading”, Mater. Sci. Eng . A229 (1997) pp. 129-136.
· G. P. Zhang and Z. G. Wang, “Mode I and Mixed Mode I/II Fatigue Cracking in Ni 3 Al(CrB) Single Crystals ”, Fatigue & Fract. Engng. Mater. Struct . 20 (1997) pp. 883-894.
· G. P. Zhang and Z. G. Wang, “Crystallographic Cracking Behavior in <110> Oriented Single Crystal of Ni 3 Al Alloy under Cyclic Deformation”, Mater Lett ., 30 (1997) pp. 175-181.
· G. P. Zhang and Z. G. Wang, “Crystallographic Cracking Behavior in Intermetallic Compound Ni 3 Al(CrB) Single Crystal under Cyclic Compression” J. Mater. Sci. Lett . 16 (1997) pp. 953-957.